v = u + at
where u = starting velocity, v = final velocity, a = acceleration, t = time.
Here u = 0 so v = at ie a = v/t
Now, v = 5 m/s (what is mk?) and t = 5 s
So a = (5 m/s) / 5 s = 1 m/s2
at the waist of average height man normally.
Average speed is 6km/3hr = 2km/hr = 2KPH.
The answere would be 15.333
Force = (mass) x (acceleration)F = (15) x (10) = 150 newtonsThat's about 33.72 pounds.Notice that 10 m/s2 is a pretty substantial acceleration ... about 2% greater than one 'G'.So you're talking about accelerating the bike a hair faster than it would fall off the roof.
There is no change. The bike is moving along a horizontal surface, and only a change in height can change the gravitational PE.
your seed,velocity,and acceleration will be slow When you brake, your acceleration increases (!), your velocity decreases (and in this case, there is no difference between velocity and speed). Negative acceleration increases when braking a moving bike.
how it is produce a moving bike
yes
This depends on conditions, rider weight and bike the bikes condition, but this would take about 10 seconds on average.
well it depeneds on the bike or the kart
In general, slowing down is negative acceleration. Some might call it deceleration. Braking a car or bike is a simple example of negative acceleration.
When we ride on a motor cycle we turn the throttle and the bike's speed goes on increasing. This is positive acceleration. Now we switch off the motor. The bike comes to rest after travelling some distance. This is due to negative acceleration due to frictional force between the tyre and the floor. In this case acceleration is in opposite direction to the direction of motion of the bike. Hence acceleration becomes a vector.
A bike does not accelerate when turning a corner. A bike will slow down when going around a corner.
Kinetic.
chain
There's really no telling. Depends on how tuned the engine is, if the bike is styled like a road bike or a dirt bike, if it's geared for acceleration or top speed, and on how aerodynamic bike + rider can become.
A moving bicycle or bike will not fall when the opposing forces are balanced.